长江流域资源与环境 >> 2011, Vol. 20 >> Issue (10): 1274-.

• 生态环境 • 上一篇    下一篇

CE-QUAL-W2在紫坪铺水库的应用及其参数敏感性分析

李 艳,邓 云|梁瑞峰, 脱友才   

  1. (四川大学水力学与山区河流开发保护国家重点实验室|四川 成都 610065)
  • 出版日期:2011-10-20

APPLICATION OF CEQUALW2 TO ZIPINGPU RESERVOIR AND SENSITIVITY ANALYSIS OF MODEL PARAMETERS

LI Yan, DENG Yun, LIANG Ruifeng, TUO Youcai   

  1. (State Key Laboratory and Mountain River Engineering, Sichuan University, Chengdu 610065, China
  • Online:2011-10-20

摘要:

采用宽度平均立面二维水动力模型CEQUALW2,对紫坪铺水库水温结构进行了数值模拟,运用库区实测资料进行了模型的参数率定及验证。库区及下泄水温的计算值与实测值吻合良好,显示模型能较好地模拟库区垂向水温分层的形成发展过程,以及升温期电站下泄水温变化,证实该模型对紫坪铺水库的水温模拟是适用的,也可为同类型水库提供参考。经参数灵敏度分析,发现水温模拟对模型中的风遮蔽系数与动态光遮蔽系数最为敏感,其余参数影响不明显,可取模型默认值。其中风遮蔽系数增大,风速加大,水库表层温度降低,水库垂向混合作用增强,温跃层下移,水温分层明显减弱,库底水温明显提升;动态光遮蔽系数增大,入射的太阳辐射增强,水库上层40 m水体温度升高,中下层水体温度无明显变化

Abstract:

CEQUALW2, a twodimensional, laterally averaged, hydrodynamic model, was applied to simulate the water temperature structure in Zipingpu reservoir. Model parameters were adjusted during calibration and the simulation results were compared with the observed measurements in site. The simulation results of area of reservoir and effluent flow were compared favorably with the observed measurements, showing that the model can simulate the process of formation and development in vertically stratified reservoir and changes of water temperature for power station during temperature raising period. The model is suitable to be applied to simulate vertical water temperature structure in Zipingpu reservoir, which also can provide reference for the simulations of vertical water temperature in similar reservoirs. Through sensitivity analysis of parameters, it is found that windsheltering coefficient and dynamic shading coefficient's effects on simulation of vertical water temperature are most obvious. The rest parameters have little effects on simulation of vertical water temperature, so they can be the model's default values. The influences of windsheltering coefficient and dynamic shading coefficient on temperature structure in reservoir are analyzed. It is shown that the windsheltering coefficient’s increase, will cause that wind speed increases, reservoir surface temperature decreases, reservoir vertical mixing action is enhanced, thermocline moves down, water temperature stratification is weakened and temperature bottom rises; Dynamic shading coefficient's increase, causes the enhancement of incidence of solar radiation, upper 40 m water body's temperature rises, without obvious changes of temperature in middle and bottom water body

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